Oracle VM VirtualBox (formerly Sun VirtualBox, Sun xVM VirtualBox and InnoTek VirtualBox) is a
hosted hypervisor for
x86 virtualization developed by
Oracle Corporation. VirtualBox was originally created by InnoTek Systemberatung GmbH, which was acquired by
Sun Microsystems in 2008, which was in turn acquired by Oracle in 2010.
VirtualBox may be installed on
Microsoft Windows,
macOS,
Linux,
Solaris and
OpenSolaris. There are also ports to
FreeBSD[5] and
Genode.[6] It supports the creation and management of guest
virtual machines running Windows, Linux,
BSD,
OS/2, Solaris,
Haiku, and
OSx86,[7] as well as limited virtualization of macOS guests on Apple hardware.[8][9] For some guest operating systems, a "Guest Additions" package of device drivers and system applications is available,[10][11] which typically improves performance, especially that of graphics, and allows changing the resolution of the guest OS automatically when the window of the virtual machine on the host OS is resized.
Released under the terms of the GNU General Public License and, optionally, the
CDDL for most files of the source distribution, VirtualBox is
free and open-source software, though the Extension Pack is
proprietary software, free of charge only to personal users. The License to VirtualBox was relicensed to GPLv3 with linking exceptions to the CDDL and other GPL-incompatible licenses.[12]
History
VirtualBox was first offered by InnoTek Systemberatung GmbH, a German company based in
Weinstadt, under a
proprietary software license, making one version of the product available at no cost for personal or evaluation use, subject to the VirtualBox Personal Use and Evaluation License (PUEL).[13] In January 2007, based on counsel by
LiSoG, InnoTek released VirtualBox Open Source Edition (OSE) as
free and open-source software, subject to the requirements of the
GNU General Public License (GPL), version 2.[14]
InnoTek also contributed to the development of
OS/2 and
Linux support in virtualization[15] and OS/2 ports[16] of products from
Connectix which were later acquired by
Microsoft. Specifically, InnoTek developed the "additions" code in both
Windows Virtual PC and
Microsoft Virtual Server, which enables various host–guest OS interactions like shared
clipboards or dynamic viewport resizing.
Run and control guest applications from the host – for automated software deployments
4.0
The PUEL/OSE separation was abandoned in favor of an open source base product and a closed source extension pack that can be installed on top of the base product. As part of this change, additional components of VirtualBox were made open source (installers, documentation, device drivers)
Can automatically run VMs on host system startup (except on Windows hosts)
4.3
VM video-capture support
Host touch device support (GUI passes host touch events to guest)/USB virtualization of such devices
5.0
Paravirtualization support for Windows and Linux guests to improve time-keeping accuracy and performance
USB3 controller based on Intel's hardware implementation.[24] It is supported by any Windows version starting from
Windows 8, any Linux kernel starting from 2.6.31 and Mac OS X starting from version 10.7.4.[citation needed]
Bidirectional
drag and drop support for Windows, Linux and Solaris guests
The core package, since version 4 in December 2010, is
free software under
GNU General Public License version 2 (GPLv2). A supplementary package, under a
proprietary license, adds support for
USB 2.0 and 3.0 devices,
Remote Desktop Protocol (RDP), disk encryption,
NVMe, and
Preboot Execution Environment (PXE). This package is called "VirtualBox Oracle VM VirtualBox extension pack". It includes closed-source components, so it is not
source-available.[27] The license is called Personal Use and Evaluation License (PUEL). It allows gratis access for personal use, educational use, and evaluation.[28] Since VirtualBox version 5.1.30,[29] Oracle defines personal use as installation on a single computer for non-commercial purposes.[30]
Prior to version 4, there were two different packages of the VirtualBox software. The full package was offered
gratis under the PUEL, with licenses for other commercial deployment purchasable from Oracle. A second package called the VirtualBox Open Source Edition (OSE) was released under GPLv2. This removed the same proprietary components not available under GPLv2.[30][27]
VirtualBox has experimental support for macOS guests. However, macOS's
end user license agreement does not permit running on non-Apple hardware. The operating system enforces this by calling the Apple
System Management Controller (SMC), to verify the hardware's authenticity. All Apple machines have an SMC.[34]
Virtualization
Users of VirtualBox can load multiple guest OSes under a single host operating-system (host OS). Each guest can be started, paused and stopped independently within its own
virtual machine (VM). The user can independently configure each VM and run it under a choice of
software-based virtualization or
hardware assisted virtualization if the underlying host hardware supports this. The host OS and guest OSs and applications can communicate with each other through a number of mechanisms including a common clipboard and a virtualized network facility. Guest VMs can also directly communicate with each other if configured to do so.[35]
Hardware-assisted
VirtualBox supports both
Intel's
VT-x and
AMD's
AMD-V hardware-assisted virtualization. Making use of these facilities, VirtualBox can run each guest VM in its own separate address-space; the guest OS ring 0 code runs on the host at ring 0 in VMX non-root mode rather than in ring 1. [citation needed]
Starting with version 6.1, VirtualBox only supports this method.[23][2] Until then, VirtualBox specifically supported some guests (including 64-bit guests, SMP guests and certain proprietary OSs) only on hosts with
hardware-assisted virtualization. [citation needed]
Devices and peripherals
VirtualBox emulates hard disks in three formats: the native VDI (Virtual Disk Image),[36]VMware's
VMDK, and
Microsoft's
VHD. It thus supports disks created by other hypervisor software. VirtualBox can also connect to
iSCSI targets and to raw partitions on the host, using either as virtual hard disks. VirtualBox emulates
IDE (PIIX4 and ICH6 controllers),
SCSI,
SATA (ICH8M controller), and
SAS controllers, to which hard drives can be attached.
Both
ISO images and physical devices connected to the host can be mounted as CD or DVD drives. VirtualBox supports running operating systems from
live CDs and DVDs.
By default, VirtualBox provides graphics support through a custom virtual graphics-card that is
VBE or
UEFI GOP compatible. The Guest Additions for Windows, Linux, Solaris, OpenSolaris, and OS/2 guests include a special video-driver that increases video performance and includes additional features, such as automatically adjusting the guest resolution when resizing the VM window[38]
and desktop composition via virtualized
WDDM drivers.
The emulated network cards allow most guest OSs to run without the need to find and install drivers for networking hardware as they are shipped as part of the guest OS. A special paravirtualized network adapter is also available, which improves network performance by eliminating the need to match a specific hardware interface, but requires special driver support in the guest. (Many distributions of
Linux ship with this driver included.) By default, VirtualBox uses
NAT through which Internet software for end-users such as
Firefox or
ssh can operate.
Bridged networking via a host network adapter or virtual networks between guests can also be configured. Up to 36 network adapters can be attached simultaneously, but only four are configurable through the graphical interface.
For a sound card, VirtualBox virtualizes Intel HD Audio, Intel ICH AC'97, and
SoundBlaster 16 devices.[40]
A USB 1.1 controller is emulated, so that any USB devices attached to the host can be seen in the guest. The proprietary extension pack adds a USB 2.0 or USB 3.0 controller and, if VirtualBox acts as an RDP server, it can also use USB devices on the remote RDP client, as if they were connected to the host, although only if the client supports this VirtualBox-specific extension (Oracle provides clients for Solaris, Linux, and
Sun Ray thin clients that can do this, and has promised support for other platforms in future versions).[41]
Software-based
In the absence of hardware-assisted virtualization, versions 6.0 and earlier of VirtualBox could adopt a standard
software-based virtualization approach. This mode supports 32-bit guest OSs which run in rings 0 and 3 of the Intel
ring architecture.
The system reconfigures the guest OS code, which would normally run in ring 0, to execute in ring 1 on the host hardware. Because this code contains many privileged instructions which cannot run natively in ring 1, VirtualBox employs a Code Scanning and Analysis Manager (CSAM) to scan the ring 0 code recursively before its first execution to identify problematic instructions and then calls the Patch Manager (PATM) to perform in-situ patching. This replaces the instruction with a jump to a VM-safe equivalent compiled code fragment in hypervisor memory.
The guest user-mode code, running in ring 3, generally runs directly on the host hardware in ring 3.
In both cases, VirtualBox uses CSAM and PATM to inspect and patch the offending instructions whenever a fault occurs. VirtualBox also contains a
dynamic recompiler, based on
QEMU to recompile any
real mode or
protected mode code entirely (e.g. BIOS code, a DOS guest, or any operating system startup).[42]
Using these techniques, VirtualBox could achieve performance comparable to that of
VMware in its later versions.[43][44]
The feature was dropped starting with VirtualBox 6.1.[23][2]
Features
Snapshots of the RAM and storage that allow reverting to a prior state.
"Host key" for releasing the keyboard and mouse cursor to the host system if captured (coupled) to the guest system, and for keyboard shortcuts to features such as configuration, restarting, and screenshot. By default, it is the right-side Ctrl key, or on Mac, the left ⌘ Command key.[45][46]
Mouse pointer integration, meaning automatic coupling and uncoupling of mouse cursor when moved inside and outside the virtual screen, if supported by guest operating system.
Seamless mode – the ability to run virtualized applications side by side with normal desktop applications
Nested
paging for
AMD-V and
Intel VT (only for processors supporting
SLAT and with SLAT enabled)
Limited support for
3D graphics acceleration (including
OpenGL up to (but not including) 3.0 and
Direct3D 9.0c via
Wine's Direct3D to OpenGL translation in versions prior to 7.0 or
DXVK in later releases)
SMP support (up to 32 virtual CPUs per virtual machine), since version 3.0
HDD format disks (only version 2; versions 3 and 4 are not supported) used by Parallels virtualization products
Limitations
3D graphics acceleration for Windows guests earlier than Windows 7 [53] was removed in version 6.1.[54] This affected Windows XP [55] and Windows Vista.
VirtualBox has a very low transfer rate to and from
USB2 devices.[56][57]
For
USB3 equipment, device pass-through doesn't work in older guest OSes, such as
Windows Vista and
Windows XP, which lack appropriate drivers. However, since version 5.0, VirtualBox added an experimental USB3 controller (the
Renesas uPD720201
xHCI), which enables USB3 in these operating systems. This requires editing some configuration files.[58][59]
Guest Additions for
macOS are unavailable at this time.[60]
Native Guest Additions for
Windows 9x (
Windows 95,
98 and
ME) are not available. This results in poor performance due to the lack of graphics acceleration with the default limited color depth. External
third-party software is available[61][62][63] to enable support for 32-bit color mode, resulting in better performance.[64][65][66]
EFI support is incomplete, e.g. EFI boot for a Windows 7 guest is not supported.[60][52]
Only older versions of
DirectX and
OpenGL pass-through are supported (the feature can be enabled using the 3D Acceleration option for each
VM individually).[67]
Video RAM is limited to 128
MiB (256
MiB with 2D Video Acceleration enabled) due to technical difficulties[68] (merely changing the
GUI to allow the user to allocate more
video RAM to a
VM or manually editing the
configuration file of a
VM won't work and will result in a
fatal error[68]).
Windows 95/98/98SE/ME cannot be installed or work unreliably with modern CPUs (AMD
Zen and newer; Intel
Tiger Lake and newer) and hardware assisted virtualization (VirtualBox 6.1 and higher). This is due to these OSes not being coded correctly.[69][70][71] An open source patch has been developed to fix the issue which also addresses Windows 95/98/98SE bug which makes the system crash when running on new fast CPUs.[72]
VirtualBox 7.0 [73] and later is required to run a pristine Windows 11 guest.[74] Full compatibility with Windows 11 is achieved in VirtualBox version 7.0.14 and higher.
While VirtualBox itself is free to use and is distributed under an open source license the VirtualBox Extension Pack is licensed under the VirtualBox Personal Use and Evaluation License (PUEL). Personal use of the extension pack is free but commercial users need to purchase a license.[89]
Guest Additions are installed within each guest virtual machine which supports them; the Extension Pack is installed on the host running VirtualBox.
^"Sun Welcomes Innotek". Sun Microsystems, Inc. Archived from
the original on 2008-03-02. Retrieved 2008-02-26. On February 20 Sun completed the acquisition of Innotek
Convention: Any item in this table that has the form of "A+B" or "A+B+C" indicates a disk format that spans multiple files, where A contains the bulk of the data, and B and C are
sidecar files.